“Natural Resources and Their Use Short Notes Class 8” provides clear, exam-focused points to help students revise the chapter quickly and effectively. The short notes are created from the chapter 1 of the book Exploring Society India and Beyond.

These notes simplify key concepts, definitions, and important ideas for faster understanding. Perfect for last-minute revision and strengthening core concepts before exams.

These short notes are meant for quick learning and exam revision. For deeper conceptual clarity and complete understanding, students should carefully read the NCERT textbook alongside these notes.

When Does Nature Become a Resource?

1. What is Nature?

Totality of life and non-life forms in our environment
Exists independently of humans (not created by us)

2. Nature to Resource, Shift

Happens when humans:
• Use elements for sustenance
• Create new things from them for consumption
Example: Trees → cut → wood → furniture = resource

3. Conditions to Be a Resource

Must be:

Technologically accessible
(e.g., deep-ocean petroleum may exist but be unreachable)
Economically feasible to extract
(cost shouldn’t outweigh benefit)
Culturally acceptable
(e.g., trees in sacred groves are often not cut

4. What Counts as Natural Resources?

Formed over millions of years
- Obvious: water, air, soil
- Not-so-obvious: coal, petroleum, precious stones, metal ores, timber

E. What Counts as Natural Resources?

Formed over millions of years
Obvious: water, air, soil
Not-so-obvious: coal, petroleum, precious stones, metal ores, timber

F. Final Definition

Natural resources = materials/substances occurring in Nature that are valuable to humans

Categories of Natural Resources

Why Categorise?

Group things by shared characteristics/criteria
Gives each group a name for quick reference
Enables clear communication without lengthy descriptions
(e.g., “living things” instantly conveys meaning)

There are two types of categories :

Based on the uses
Based on Sources for energy

Categories (Based on USE)

1. Resources Essential for Life

Air → breathe → from atmosphere
Water → drink → from rivers & ponds
Food → from the cultivation of soil or living things
❗ Cannot be made by humans: air, water, soil

2. Resources for Materials

Used to create physical objects from Nature’s gifts
Two purposes:
• Utility (e.g., wood → chair)
• Beauty (e.g., wood → carved statuette)
India’s diversity → wide variety: wood, marble, coal, gold

3. Resources for Energy

Cornerstone of modern living
Powers:
• Electricity for buildings
• Transportation
• Production processes
Sources: coal, water, petroleum, natural gas, sunlight, wind

Categories (Forms Of Energy)

Renewable and non-renewable resources

Nature’s Core Principle

Functions in a restorative and regenerative way
Works in cycles with no waste

Restoration

Returning something to its original healthy state after damage/degradation
Examples:
• Skin cut → heals naturally
• Forest → recovers after wildfire

Regeneration

Goes beyond restoration
Nature’s ability to:
• Create new life
• Create conditions for thriving

Real-World Example: Forest Ecosystem

Trees lost due to human action (e.g., clearing for housing)
Plant original tree types → restores ecosystem
Trees provide food + shelter for birds, squirrels, and creatures
Life returns → ecosystem thrives

Nature’s Zero-Waste Cycle

Forest example:
→ Tree falls
→ Bacteria, fungi, and insects decompose it
→ Tree becomes part of the soil (enriches it)
→ New trees/plants grow from seeds
→ Some fall → cycle repeats

Renewable Resources

What Makes Them “Renewable”?

Exhibit restoration & regeneration characteristics over time
Renew themselves through natural processes

Examples in India

Sunshine → abundant across most regions
Rivers → regularly fed by rain + melting glaciers
Forests → renew themselves naturally
Soil → replenishes through natural processes

Specific Renewable Resources

Solar energy
Wind energy
Energy from flowing water
Timber from forests
→ but only if managed sustainably

⚠️ Critical Condition:
Must NOT disturb Nature’s natural rhythm of restoration & regeneration
Example: Harvest timber faster than forest regrows → forest depletion

When Renewability Breaks Down

Human Action	Consequence	Impact
Fossil fuel industrialisation + forest cutting	Rising temperatures	Himalayan glaciers melt faster than rain/snow replaces them
→	Disturbed water cycle	Threatens water security for plains populations (Himalayas = “water tower”)
Industrial waste discharge into rivers	Wastes cannot decay into food for lifeforms	River becomes poisonous → cannot support life

Non-Renewable Resources

What They Are

Created over very long periods (millions of years)
Cannot be replenished at the rate humans use them

Examples

Fossil fuels: coal, petroleum
Minerals & metals: iron, copper, gold

India’s Coal Situation

Has significant coal reserves
Mined to meet growing energy needs
Estimated to last ~50 more years
Demand is rising due to:
• Population expansion
• Accelerating development work

The Challenge

Till sustainable options become widely available:
→ Must use existing coal judiciously (carefully and wisely)

Distribution of Natural Resources and Its Implications

Uneven Distribution

Resources NOT evenly spread across:
• The planet 🌐
• Even within single countries 🇮🇳
Shapes:
- Human settlements
- Trade patterns
- International relations
- Conflicts/wars → many fought to control resources

Benefits of Resource-Rich Areas

Industries near resources → local employment
Townships grow → expanded economic opportunities
Better modern facilities → improved quality of life

Costs & Conflicts

Benefits come with short-term + long-term costs
Examples worldwide:
• People displaced from homes for development
• Sacred places threatened → sparks conflicts

Trade & Unique Products

National/international trade depends on the geographical location of resources
Combined with human knowledge + skills → unique products
(e.g., Wootz steel)
Trade-fueled development of large empires in India

Political Boundaries Problem

Nature ignores political boundaries
Creates tensions over resource sharing:
• Between states
• Between countries
Example: Kaveri River water sharing → Karnataka, Tamil Nadu, Kerala, Puducherry
• Requires negotiations + deft management for peace + fair sharing
• Harder between neighbouring countries

The ‘Natural Resource Curse’

1. What Is It?

Also called the “paradox of plenty.“
A phenomenon where resource-rich regions experience:
• Slower economic growth
• Slower development
Key insight: Abundant resources ≠ lead to automatic prosperity

2. Why It Happens

Economies often fail to develop industries that:
→ Convert raw resources → higher-value products
Result: Resources stay raw → limited economic benefit

3. India’s Approach

Avoided the curse by:
→ Investing in industries that process resources
→ Meeting growing domestic needs through value addition

4. The Real Challenge

Must balance:
- Resource extraction
- Sustainability

What Determines Success?

Lasting benefit vs. temporary windfall depends on:

Human knowledge
Good governance
Strategic planning

Responsible and Wise Use of Natural Resources: Stewardship

Core Requirement for Sustaining Life

Must respect Nature
Must use resources so that:
• Renewable resources → restore & regenerate
• Non-renewable resources → used responsibly & judiciously

Scientists’ Warnings

Irresponsible treatment of natural resources has caused:

Pollution
Biodiversity loss
Climate change
→ All are accelerating at an increased pace in recent years

Restoration and regeneration of
renewable resources

The Problem: Pushing Beyond Capacity
We use renewable resources faster than they can regenerate → two critical examples:

Example 1: Groundwater Crisis

Issue:
• Farmers extract groundwater faster than the water table replenishes
• Extraction rate > Replenishment rate
Consequences:
• Deficit builds up over time
• Higher extraction costs → eventual unavailability
• Prediction: Many growing cities will run out of groundwater soon
Solutions being attempted:
• Traditional water harvesting
• Rejuvenation of ponds & tanks
• Cutting wasteful water consumption
• Processing & reusing water

Example 2: Soil Degradation

Cause:
• Improper use of chemical fertilisers & pesticides
Traditional Wisdom:
• Soil is viewed as part of Mother Earth
• Holistic practices included:
– Cow dung & natural fertilisers
– Mulching
– Multi-cropping
Way Forward:
• Learn from traditional practices
• Apply them now to prevent further degradation
• Must replenish & rejuvenate soil

Over-exploitation of groundwater: a caselet from Punjab

The Crisis

Fertile plains of Punjab → groundwater severely depleted
State-powered Green Revolution → fed a large population + made India food self-sufficient
Today: faces sustainability crisis → Nature exploited beyond regeneration (short term)
⚠️ Not unique to Punjab → affects many other states

How It Happened (1960s Onwards)

Change	Consequence
Shift to high-yielding wheat/paddy	Needed more water than traditional seeds
Heavy use of chemical pesticides & fertilisers	To meet increased water demand
Free power supply	Heavy use of chemical pesticides & fertilisers
Modern farming techniques	Heavy use of chemical pesticides & fertilizers

Combined Effects Today

Groundwater level → inaccessible till ~30 metres depth (large parts of Punjab)
Chemicals dissolved in groundwater → health hazards
~80% of Punjab is classified as “overexploited.”
→ Water is drawn much faster than restoration/rejuvenation is possible

Short-Term Gain vs. Long-Term Pain

Short Term ✅	Long Term ❌
Food security ensured	Consequences take time + effort to heal

The case of cement

Why Cement Matters

Essential for modern life:
• Houses, schools, hospitals, buildings
• Bridges, roads, airports

Pollution Problem

Cement production = one of the most polluting industries
Releases fine dust that:

Enters lungs (humans + animals) → damages them
Settles on plant leaves → decreases yields
Causes soil + water pollution

Solutions Being Implemented

Approach	Action
Regulation	Central Pollution Control Board (CPCB) created guidelines to minimise/eliminate pollution
Alternatives	Shift to: • Traditional materials (stone, mud) • Plant-based materials • Recycled waste plastic
Sustainable Design	Combine traditional methods + modern tech → materials that: • Less polluting production • Provide local employment • Climate-appropriate design

Vṛikṣhāyurveda: Ancient Indian Botanical Science

What It Is

Sanskrit roots: vṛikṣha (tree) + ayurveda (science of life/health)
Dates back several millennia
Formalised in texts like Surapala’s Vṛikṣhāyurveda (~10th century CE)

Key Practices (All Sustainable)

Soil-specific planting

Recommends plants for different soil types

Seed care

Elaborate methods for collection, preservation, and pre-planting treatment

Smart irrigation

Varies by plant species, growth stage, season

Natural pest control

Uses repellents + companion planting

Soil health

Promotes crop rotation + mixed cropping

Gentle ploughing

Retains soil moisture + supports soil life (fungi, bacteria, earthworms)

A caselet from Sikkim

The Problem (Before Transition)

Pema’s family farm faced:
• Declining yields
• Mounting debts from expensive chemical inputs

The Shift to Organic

Trigger:
- State government policy to promote organic farming statewide
Family decided to try →
- not an easy transition
Initial challenge:
- Yields dropped as soil recovered from years of chemical use

Key Changes Made

Switched to compost (replaced chemicals)
Prepared natural pest repellents using:
• Neem
• Garlic
Started multi-cropping → grew multiple crops across the year

Results After ~5 Years

Farm thriving
Sold cardamom, ginger, and traditional vegetables at premium prices
2016 milestone: Sikkim became 100% organic state
→ All farmland is certified organic

Transformational Effects

Area	Outcome
Ecological	Local biodiversity flourished → beneficial insects + birds returned
Economic	Farmers’ incomes grew by 20% on average
Tourism	Visitors came to see the organic farming model → tourism increased

Global Significance

Sikkim = global model today
Proves the entire region can:
• Successfully transition to sustainable agriculture
• Improve both ecological + economic outcomes simultaneously

Responsible and judicious use of resources

For Non-Renewable
Resources

Use them so they last long enough for
humanity to find sustainable alternatives
Key action: Switch to renewable energy sources
for as many purposes as possible

The Fairness
Challenge

Distribution/access to resources is often unfair
to some sections of society
Examples:
• Water: Many city areas lack adequate + regular drinking water supply
• Air: Pollution from industries + fossil fuels harms
those unable to protect themselves

Our Role: Stewards
of Nature

Remember our relationship with Nature
Act as stewards toward:
- Restoration
- Regeneration
- Sustainability
Bhagavad Gītā wisdom: Lokasangraha
→ Transcend personal desires → act for the well-being of all

International Solar Alliance (ISA)

India’s Renewable Energy Leadership

Launch & Purpose

Launched in 2015 by India + France
Coalition of sunshine-rich countries
Focus: Nations with abundant year-round sunlight

India’s Contributions

Channelled billions of dollars into solar projects across developing nations
Shared technical expertise
Created affordable financing options

Symbol of Ambition

Bhadla Solar Park = symbol of India’s solar ambitions
Shows transition path:
traditional energy → renewable alternatives

Dual Benefit for India

Represents both:
Environmental responsibility
Economic opportunity